1968
DOI: 10.1063/1.1670272
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General Internal Motion of Molecules, Classical and Quantum-Mechanical Hamiltonian

Abstract: The dynamics and the Hamiltonian of a general asymmetric-top molecule undergoing almost arbitrary deformations are discussed. s vector notations are used for translational, rotational, and internal-velocity coordinates. The kinetic energy is formulated by generalizing the G-matrix technique known from the theory of molecular vibrations. A geometrical definition of the rotational coordinates referring to the instantaneous principal axis system is compared with a dynamical definition involving the over-all angul… Show more

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Cited by 236 publications
(72 citation statements)
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“…10,12 In the geometric algebra approach, it is also unnecessary to calculate the inverse of the inertia tensor to obtain the rotational measuring vectors, unlike in the approach where the rotational basis vectors are read off from the components of the rotational velocity. 13 Finally, as the reader has no doubt noticed, the current method applies straightforwardly to any system: there is no restriction in the number of particles involved.…”
Section: Comparison To Other Approachesmentioning
confidence: 99%
“…10,12 In the geometric algebra approach, it is also unnecessary to calculate the inverse of the inertia tensor to obtain the rotational measuring vectors, unlike in the approach where the rotational basis vectors are read off from the components of the rotational velocity. 13 Finally, as the reader has no doubt noticed, the current method applies straightforwardly to any system: there is no restriction in the number of particles involved.…”
Section: Comparison To Other Approachesmentioning
confidence: 99%
“…To confirm the assignment of the vibrational levels presented in Subsection III B 2 and to be able to calculate the Franck-Condon factors of the X + ←X transitions, model potentials for the X + 2 g, ( = 3/2, 1/2) electronic states were determined in a direct fit based on the solution of the Schrödinger equation using a discrete variable representation (DVR). 30,31 The model potential we used (see Ref. 32) consists of three contributions: a repulsive short-range contribution V short (R) that also contains the effect of chemical bonding, an attractive long-range contribution V attr (R), and a constant E diss that defines the origin of the energy scale:…”
Section: The CL + ( 1 D 2 ) + Cl − ( 1 S 0 ) Ion-pair Dissociation Thmentioning
confidence: 99%
“…In terms of internal displacement coordinates, q k , the quantum mechanical Hamiltonian that describes the vibrational excitations of a molecule takes the form [50,51] …”
Section: Hamiltonian Of Triatomic Xy Moleculesmentioning
confidence: 99%